primary oscillator

简明释义

初级振荡器

英英释义

例句

1.The primary oscillator in this circuit is responsible for creating the clock signal.

这个电路中的主振荡器负责生成时钟信号。

2.The design of the primary oscillator can greatly affect the overall performance of the device.

设计主振荡器会极大影响设备的整体性能。

3.The sound engineer adjusted the settings on the primary oscillator to achieve the desired frequency.

音响工程师调整了主振荡器的设置，以达到所需的频率。

4.In the synthesizer, the primary oscillator generates the main waveform used for sound production.

在合成器中，主振荡器生成用于声音制作的主要波形。

5.To improve signal stability, we need to calibrate the primary oscillator regularly.

为了提高信号稳定性，我们需要定期校准主振荡器。

作文

In the realm of electronics and signal processing, the concept of a primary oscillator is fundamental to understanding how various devices generate and manipulate signals. An oscillator is a circuit that produces a repetitive waveform, and the primary oscillator serves as the main source of these signals in many applications. This essay aims to explore the significance of the primary oscillator in modern technology, its working principles, and its applications in various fields.The primary oscillator can be defined as the main component responsible for generating the fundamental frequency of a system. It acts as a reference point for other oscillators and circuits within an electronic device. For instance, in a radio transmitter, the primary oscillator generates the carrier wave that carries the information signal. Without a stable and accurate primary oscillator, the entire communication system would be compromised, leading to poor performance or complete failure.There are several types of oscillators, including crystal oscillators, LC oscillators, and relaxation oscillators. Among these, crystal oscillators are often used as primary oscillators due to their high stability and precision. They utilize the mechanical resonance of a vibrating crystal to produce a consistent frequency output. This characteristic makes them ideal for applications where timing accuracy is crucial, such as in watches, computers, and telecommunications equipment.The importance of the primary oscillator extends beyond just generating signals; it also plays a critical role in synchronizing different components within a system. In digital circuits, for example, the primary oscillator provides the clock signal that coordinates the timing of operations. This synchronization is essential for ensuring that data is processed correctly and efficiently. Without a reliable primary oscillator, the timing discrepancies could lead to errors and malfunctions in the system.Moreover, the primary oscillator has significant implications in the field of audio engineering. In synthesizers and sound generators, the primary oscillator produces the basic waveforms—such as sine, square, triangle, and sawtooth—that form the foundation of synthesized sounds. Musicians and sound designers manipulate these waveforms to create a wide variety of tones and textures. The versatility of the primary oscillator allows for endless creativity in music production, making it an indispensable tool for contemporary artists.In conclusion, the primary oscillator is a vital component in various electronic systems, serving as the backbone for signal generation and synchronization. Its ability to produce stable and precise frequencies makes it essential in applications ranging from telecommunications to audio engineering. As technology continues to advance, the role of the primary oscillator will undoubtedly evolve, but its fundamental importance will remain unchanged. Understanding the workings and applications of the primary oscillator is crucial for anyone interested in the fields of electronics and signal processing, as it lays the groundwork for further exploration and innovation in these areas.

在电子和信号处理领域，primary oscillator（主振荡器）的概念对于理解各种设备如何生成和处理信号至关重要。振荡器是产生重复波形的电路，而primary oscillator在许多应用中作为这些信号的主要来源。本文旨在探讨primary oscillator在现代技术中的重要性、其工作原理以及在各个领域的应用。primary oscillator可以定义为负责生成系统基本频率的主要组件。它作为电子设备中其他振荡器和电路的参考点。例如，在无线电发射器中，primary oscillator生成承载信息信号的载波波。没有稳定且准确的primary oscillator，整个通信系统将受到影响，导致性能不佳或完全失败。振荡器有几种类型，包括晶体振荡器、LC振荡器和放松振荡器。其中，晶体振荡器由于其高稳定性和精确性，常常被用作primary oscillator。它们利用振动晶体的机械共振来产生一致的频率输出。这一特性使它们在计时准确性至关重要的应用中理想，例如手表、计算机和电信设备。primary oscillator的重要性不仅限于生成信号；它在系统内不同组件的同步方面也发挥着关键作用。在数字电路中，例如，primary oscillator提供协调操作时序的时钟信号。这种同步对于确保数据正确高效地处理至关重要。如果没有可靠的primary oscillator，时序差异可能导致系统中的错误和故障。此外，primary oscillator在音频工程领域也具有重要意义。在合成器和音源生成器中，primary oscillator产生基本波形——如正弦波、方波、三角波和锯齿波——构成合成声音的基础。音乐家和声音设计师操控这些波形来创造各种音调和纹理。primary oscillator的多功能性使得音乐制作中的无限创造力成为可能，使其成为当代艺术家的不可或缺的工具。总之，primary oscillator在各种电子系统中是一个至关重要的组件，作为信号生成和同步的支柱。其产生稳定和精确频率的能力使其在从电信到音频工程等应用中至关重要。随着技术的不断进步，primary oscillator的角色无疑会演变，但其基本重要性将保持不变。理解primary oscillator的工作原理和应用对于任何对电子和信号处理领域感兴趣的人来说都是至关重要的，因为它为进一步探索和创新奠定了基础。